CN201107762Y

CN201107762Y - Electronic device with interface capable of switching users and touch control operating without difficulty

Info

Publication number: CN201107762Y
Application number: CNU200720142725XU
Authority: CN
Inventors: 高翊峰; 刘得权
Original assignee: High Tech Computer Corp
Current assignee: HTC Corp
Priority date: 2007-05-15
Filing date: 2007-05-15
Publication date: 2008-08-27
Anticipated expiration: 2017-05-15

Abstract

The utility model discloses an electric device which is provided with an electronic device which can switch a user interface and has no-hindrance touch control operation. The electronic device which can switch the user interface comprises a display, a touch control inductive device, a touch signal position detection module and a processing module, wherein the touch control inductive device is used for detecting the touch signal input into a tool. The touch signal position detection module is coupled with the display and the touch control inductive device and is used for judging whether the touch signal is placed at the specific area of the touch control inductive device; if the touch signal is placed at the specific area, the touch signal position detection module judges whether the position of the touch signal is changed or not. The processing module is coupled with the touch signal position detection module and is used for opening and displaying the user interface at the display when the position of the touch signal is changed, so as to increase the convenience of the electonic device.

Description

Electronic installation with changeable user interface and block-free touch control operation

Technical field

The utility model relates to a kind of electronic installation, and particularly relevant for the electronic installation with changeable user interface and block-free touch control operation.

Background technology

Along with making rapid progress of two indicator devices (Pointing Stick and Touch Pad) technology, no matter be the manufacturer of electronic products such as notebook computer, mobile phone or portable multimedia player, all have and utilize touch control screen to replace conventional keyboard with trend as inputting interface of new generation.With the mobile phone is example, while the display frame that the user must contrast on the screen when the operation with traditional mobile phone clicks keyboard, just can carry out input characters in view of the above or choose operational motions such as menu.Yet for the mobile phone of a combination of touch control formula screen of operation, the user only need be by as pointer devices such as (stylus), just directly input characters or opening application program on screen.This shows that touch control screen is real to be a kind of input mode more easily.

But for the comparatively light and handy hand-hold electronic device of some external form, its touch control screen big or small limited, therefore manufacturer is when design user interface, is bound to such an extent that dwindle the size of the option of menu, could show more function choosing-item thus on screen.With the interior hand-hold electronic device that has Windows is example, and the functional type that Windows is supported is various, and is that mode with hierarchic option list is presented in " beginning " menu mostly.Therefore when the user wants to open a certain function, must click " beginning " menu, then from " beginning " menu, look for the menu position of the function of desire execution again, click corresponding option on the functional menu at last to open this function.The menu that needs could be opened through the action that successively clicks, for hand-hold electronic device operation, considerable inconvenience will be caused undoubtedly.

In addition, if the user loses pointer accidentally, or be when pointer not on hand the time, for fear of the size of the option at user interface, the user may be forced to import or to operate by finger tip actions such as menu.Under these circumstances, then be easy to and choose the option of mistake because option is too little, so that opened non-essential user interface.So, the user must return last layer user interface and operate again, could open correct user interface in view of the above.Be not difficult to infer, the generation of this situation certainly will will expend many unnecessary running times.Just because of this, how allowing the user just can directly successfully open various user interface on touch control screen by finger, and then easily the user interface is operated, definitely is one of key factor that promotes the operating electronic devices convenience.

In addition, the shell of traditional hand-hold electronic device is close to the edge of display area that display is touched in control usually, and it is many to control the touch-control sensing plane protrusion that touches display.Because shell protuberance branch stops the control of input tool (comprising finger or pointer) and touches operation and easy scratch finger; therefore the user can not be fast and is effectively touched the pixel that the edge of display area of display is touched in control; and can't carry out very smooth-going touch control operation; in addition; the non-display area that display is touched in control still has the ability of touch-control sensing; and the shell of general hand-held device can cover this zone usually; except that the touch control operation that hinders the user, and the application that allows control touch the touch-control sensing of display is restricted.

Summary of the invention

In view of this, the utility model provides a kind of the have electronic installation at changeable user interface and a kind of electronic installation of block-free touch control operation.Can contact the position and the moving direction thereof of the activation signal that touch-sensitive display produces according to input tool, open according to this, close, or switch different user interfaces.

The utility model proposes a kind of electronic installation with changeable user interface, this device comprises display, touch control induction device, activation signal position detecting module and processing module.Wherein touch control induction device is coupled to display and touch control induction device in order to activation signal, the activation signal position detecting module that detects input tool, in order to judge whether activation signal is positioned at the specific region of touch control induction device, if be positioned at the specific region, judge then whether the position of activation signal changes.Processing module is coupled to the activation signal position detecting module, when changing in order to the position at activation signal, opens on display and demonstration user interface.

The utility model proposes a kind of electronic installation with changeable user interface again, and this device comprises display, touch control induction device, activation signal position detecting module, activation signal moving direction detection module and processing module.Wherein touch control induction device is in order to detect the activation signal of input tool.The activation signal position detecting module is coupled to display and touch control induction device, whether is positioned at the specific region of touch control induction device in order to judge activation signal, if be positioned at the specific region, judges then whether the position of activation signal changes.Activation signal moving direction detection module is coupled to the activation signal position detecting module, in order to detect the moving direction of activation signal.Processing module is coupled to activation signal position detecting module and activation signal moving direction detection module, when changing in order to the position at activation signal, switches the user interface according to moving direction on display.

The utility model proposes a kind of electronic installation of block-free touch control operation, in order to open a user interface, it comprises housing, touch-sensitive display and processor.Its middle shell has opening.Touch-sensitive display is arranged in the opening of housing, and in order to receive the activation signal of input tool, touch-sensitive display has the touch-control sensing plane, and the outside surface of housing does not protrude from the touch-control sensing plane in fact.Processor is to be coupled to touch-sensitive display, in order to judge whether activation signal is positioned at the specific region of touch-sensitive display, if be positioned at the specific region, whether the position of then judging activation signal changes, and when changing, on touch-sensitive display, open and demonstration user interface in the position of activation signal.

The utility model also proposes a kind of electronic installation of block-free touch control operation, and in order to switch the user interface, it comprises housing, touch-sensitive display and processor.Its middle shell has opening.Touch-sensitive display is arranged in the opening of housing, and in order to receive the activation signal of input tool, touch-sensitive display has the touch-control sensing plane, and the outside surface of housing does not protrude from the touch-control sensing plane in fact.Processor is to be coupled to touch-sensitive display, in order to judge whether activation signal is positioned at the specific region of touch-sensitive display, if be positioned at the specific region, whether the position of then judging activation signal changes and detects the moving direction of activation signal, and when changing, on touch-sensitive display, switch the user interface according to moving direction in the position of activation signal.

Electronic installation provided by the utility model has with housing and is positioned at conplane touch-control sensing plane, can be used to receive the operation of input tool, and electronic installation will open, switch or cut out the user interface according to this according to the position and the moving direction thereof of the activation signal that input tool produced.And then allow the user can more conveniently enter the user interface that needs fast, to increase convenience in operating electronic devices.

For above-mentioned and other purposes, feature and advantage of the present utility model can be become apparent, preferred embodiment cited below particularly, and conjunction with figs. is described in detail below.

Description of drawings

Fig. 1 is the process flow diagram of the method for operating at the user interface that illustrated according to the utility model one embodiment.

Fig. 2 is the synoptic diagram of the electronic installation that illustrated according to the utility model one embodiment.

Fig. 3 is the synoptic diagram at the user interface that illustrated according to the utility model one embodiment.

Fig. 4 is the synoptic diagram at the user interface that illustrated according to the utility model one embodiment.

Fig. 5 is the synoptic diagram at the user interface that illustrated according to the utility model one embodiment.

Fig. 6 is the synoptic diagram at the dynamic user of the 3D interface that illustrated according to the utility model one embodiment.

Fig. 7 is the synoptic diagram of the electronic installation with changeable user interface that illustrated according to the utility model one embodiment.

Fig. 8 is the process flow diagram of the method for operating at the user interface that illustrated according to another embodiment of the utility model.

Fig. 9 is the synoptic diagram of the electronic installation with changeable user interface that illustrated according to the utility model one embodiment.

Figure 10 A is the stereographic map of the hand-hold electronic device of a kind of block-free touch control operation of being illustrated according to the utility model one embodiment.

Figure 10 B is the sectional view of the electronic installation of Figure 10 A.

Embodiment

When the user when using the electronic installation with touch-sensitive display (touch display), if do not need just can not open or switch different user interfaces apace, certainly will be able to shorten the running time and increase efficient in the use via the operation menu.The utility model is based on above-mentioned viewpoint and then develops the method for operating at a kind of user interface that.In order to make content of the present utility model more clear, below the example that can implement according to this really as the utility model especially exemplified by embodiment.

Fig. 1 is the process flow diagram of the method for operating at the user interface that illustrated according to the utility model one embodiment.Present embodiment is to illustrate having on the electronic installation of touch-sensitive display, opens the detailed step at user interface via operational motion.Wherein electronic installation comprises mobile phone, personal digital assistant, smart mobile phone and notebook computer or the like, does not limit its scope at this.

See also Fig. 1, at first shown in step 110, detect the activation signal that is produced when input tool contacts touch-sensitive display.Wherein, the finger that input tool for example can the person of being to use or pointer or the like.With regard to the manufacturing technology of touch-sensitive display, in the electronic installation 200 that Fig. 2 illustrated, touch-sensitive display 210 can be divided into viewing area 211 and non-display area 213.Wherein, viewing area 211 is touch control screen (touch screen) zone that common people are familiar with, it not only can be used for display frame, can also allow the user utilize input tool directly to carry out input characters on viewing area 211 or clicks operational motions such as menu.Though and non-display area 213 can't be in order to display frame, but still have sensing function, can detect the action of input tool in view of the above.In the present embodiment, the viewing area 211 of touch-sensitive display 210 and the surface of contact between the non-display area 213 for example can be to be positioned at same plane or Different Plane, do not limit its scope at this.

Next shown in step 120, judge whether activation signal is positioned in the middle of the specific region of touch-sensitive display.This specific region has comprised that the fringe region at edge, close viewing area (promptly inwardly is no more than the scope of finger contact size by the edge of viewing area, fringe region 215 as shown in Figure 2), the central area in the viewing area (promptly belongs to fringe region part in addition in the viewing area, or the non-display area on the touch-sensitive display (non-display area 213 as shown in Figure 2) central area 230 for example shown in Figure 2).

If activation signal is positioned at the specific region on the touch-sensitive display, then in step 130, judge whether the position of activation signal changes.Further, the position that judge activation signal makes not change and at first must calculate the displacement of activation signal, and this displacement can be the displacement that is produced in special time (for example 0.2 second).Then displacement and preset value are compared, if displacement greater than preset value, judges that so just the position of activation signal changes.That is to say, when the position of activation signal changes, represent input tool behind the contact touch-sensitive display, within special time, have to produce and move.

Shown in step 140, for example open the user interface at last according to the position of specific region.The mode of opening the user interface comprises from the demonstration edge towing of touch-sensitive display and shows the user interface, and is to be begun near the edge of viewing area by activation signal in the present embodiment, and the towing of user interface is shown in the viewing area.

For instance, be fringe region 215 if on electronic installation 200, set the specific region be used for opening the user interface.So in user's finger engagement edge zone 215, and move one section surpass the displacement of preset value after, new user interface will be from the viewing area 211 edge 217, quilt is pulled to be shown in the viewing area 211.

In another embodiment, if setting the specific region be used for opening the user interface on electronic installation 200 is non-display area 213, the user can be by pointing with contact point on the finger touches non-display area 213 220 and slip, when the displacement of sliding when finger surpasses preset value, so electronic installation 200 will be from 220 immediate edges of contact point (being the edge 217 of viewing area 211) open the user interface and towing is presented at the viewing area 211.

In the above-described embodiments, the user interface that is unlocked for example is to comprise that having finger can touch the user interface of image (icon) (user interface 300 as shown in Figure 3), have the user interface that finger can be touched image (image), and finger can be touched the contract drawing (miniature) that image for example is the execution picture of application program, user interface 400 as shown in Figure 4, also or common user interface (user interface 500 as shown in Figure 5).

In another embodiment, on electronic installation, for example shown an existing user interface, the user can by with the same or analogous step of method of operating at user interface shown in Figure 1, by the demonstration edge of touch-sensitive display (for example activation signal is near the edge of viewing area), on existing user interface, open, switch, or close the user interface.

For instance, by the aforesaid operations method, the user can touch the user interface of image (user interface 300 as shown in Figure 3) and go up to open common user interface (user interface 500 as shown in Figure 5) having finger.For example be again to comprise that having finger can touch upward unlatching common user interface (user interface 500 as shown in Figure 5), the user interface of image (user interface 400 as shown in Figure 4).In addition, the user can also go up at common user interface (user interface 500 as shown in Figure 5) to open and have finger and can touch the user interface (as shown in Figures 3 and 4 user interface 300 and user interface 400) that image or finger can be touched image.Or having finger at one can touch and open another on the user interface of image (or finger can touch image) and have the user interface that finger can be touched image (or finger can be touched image).

In the present embodiment, existing user interface and the user interface that was unlocked afterwards lay respectively on two planes at the dynamic user of 3D interface (3D motion user interface) (the dynamic user of 3D as shown in Figure 6 interface 610) (on two for example adjacent planes).And the dynamic user of 3D interface 610 can be polyhedron (polyhedron) or cube (cube), does not limit its scope at this.Wherein, the dynamic user of 3D interface 610 is around axial rotation.For instance, as shown in Figure 6, the dynamic user of 3D interface 610 for example be around X-axis 611 rotate up, around Z axle 613 to right rotation, also or around sloping shaft be rotated to 615.

What deserves to be mentioned is that the method for operating at above-mentioned user interface for example can be carried out in any system that possesses the robot calculator ability.In other words, the foregoing description is designed to a computer program, the recording medium (for example CD or hard disk) of utilizing computer-readable to get is stored this computer program, and it is loaded in the electronic computer system, just can carry out the method for operating at the described user of the foregoing description interface.

Fig. 7 is the synoptic diagram of the electronic installation with changeable user interface that illustrated according to the utility model one embodiment.See also Fig. 7, electronic installation 700 comprises display 710, touch control induction device 720, activation signal position detecting module 730 and processing module 740.

Wherein, touch control induction device 720 is in order to detect the activation signal of input tool (for example finger or pointer).In the present embodiment, touch control induction device 720 can be touch pad (touch pad) or contact panel (touch panel).If touch control induction device 720 is a contact panel, touch control induction device 720 constitutes a touch-sensitive display with 710 of displays so.In view of the above, contact panel comprises viewing area and non-display area with corresponding display 710, and viewing area and non-display area can be on same plane or Different Plane.

730 of the activation signal position detecting module that is connected with display 710 and touch control induction device 720 are in order to judge whether activation signal is positioned at the specific region of touch control induction device 720, in the present embodiment, the specific region comprises the fringe region of viewing area, the central area outside the fringe region, or non-display area.If activation signal is positioned at the specific region, activation signal position detecting module 730 will judge whether the position of activation signal changes.

Processing module 740 is connected to activation signal position detecting module 730, and according to the judged result of activation signal position detecting module 730, when the position of activation signal changes, according on display 710, opening and show the user interface in the position of specific region.

The user can be by the method for operating at the described user of the foregoing description interface, with finger or input tool such as pointer electronic installation 700 is operated and to be opened the user interface according to this, or opening other user interface on an existing user interface replaces existing user interface.Because method of operating and the foregoing description are identical, so do not repeat them here.

Fig. 8 is the process flow diagram of the method for operating at the user interface that illustrated according to another embodiment of the utility model.Present embodiment is with the step at the user interface of switching electronic installation by touch-sensitive display, according to this utility model is further illustrated.Wherein, touch-sensitive display can be divided into viewing area and non-display area two parts.See also Fig. 8, at first shown in step 810, when the user carries out operational motion by input tool, detect the activation signal of input tool contact touch-sensitive display.Wherein, input tool has comprised user's finger or pointer etc.

Activation signal shown in step 820, judges whether this activation signal is positioned at the specific region of touch-sensitive display after detecting and finishing.In the present embodiment, the specific region for example is the fringe region (fringe region 215 as shown in Figure 2) of the viewing area of touch-sensitive display, central area outside the fringe region (central area 230 as shown in Figure 2), or non-display area (fringe region 213 as shown in Figure 2).

If activation signal is to be positioned among the specific region, shown in step 830, judge whether the position of activation signal changes so.For instance, when the user in the mode of towing on touch-sensitive display during mobile input tool, the activation signal position that input tool contacts with touch-sensitive display just can change, and can calculate the displacement of activation signal in view of the above.When this displacement during, judge that then the position of activation signal changes greater than preset value.Further, by calculating the displacement of activation signal in special time, and by relatively displacement and preset value judge whether activation signal changes, can avoid utilizing the user input tool to click the action of option, think it is the action that to switch the user interface by mistake, avoid in view of the above causing that electronic installation produces wrong reaction.

At last shown in step 840, switch to the user interface according to the moving direction of activation signal.Wherein, the mode that switches to the user interface comprises the demonstration edge by the opposite direction touch-sensitive display pointed of the direction that relatively moves, and towing shows the user interface.In the present embodiment, the user interface for example is to comprise that having finger can touch the user interface of image (user interface 300 as shown in Figure 3), or be to comprise that having finger can touch the user interface of image (user interface 400 as shown in Figure 4), wherein finger can be touched the contract drawing that image for example is the execution picture of application program, also or common user interface (user interface 500 as shown in Figure 5).

For instance, if the specific region of electronic installation is central area 230 shown in Figure 2, and input tool contacts the activation signal that is produced with touch-sensitive display and is positioned at contact point 231.So when mode on touch-sensitive display the move right input tool of user with towing, and displacement is during greater than preset value, and the user interface will skid off and be presented at viewing area 211 by edge 233 edge of the viewing area that contact point 231 points to (promptly from) left.

In another embodiment, for example opened an existing user interface on electronic installation, the user can be switched this existing user interface by mode of operation similar to the above embodiments.Comprised and closed existing user interface and switch the user interface, on existing user interface, opened another user interface or switch to another user interface from existing user interface.For instance, by the aforesaid operations method, can touch the user interface (user interface 300 as shown in Figure 3 and Figure 4 and user interface 400) that image or finger can touch image and switch to common user interface (user interface 500 as shown in Figure 5) having finger on the electronic installation.Otherwise, also common user interface can be switched to and have that finger can be touched image or finger can be touched the user interface of image.In addition, can also can touch user interface that image or finger can touch image and switch to and have finger equally and can touch the other user interface that image or finger can be touched image having finger.

In the present embodiment, existing user interface and the user interface of being opened afterwards lay respectively on two planes at the dynamic user of 3D interface (the dynamic user of 3D as shown in Figure 6 interface 610) (on two for example adjacent planes).And the dynamic user of 3D interface 610 can be polyhedron or cube.As shown in Figure 6, the dynamic user of 3D interface 610 is around axial rotation.For instance, the dynamic user of 3D interface 610 for example be around X-axis 611 rotate up, around Z axle 613 to right rotation, also or around sloping shaft be rotated to 615.

The method of operating at above-mentioned user interface for example can be carried out in any system that possesses the robot calculator ability.That is to say, after the foregoing description is designed to a computer program, the recording medium (for example CD or hard disk) of utilizing computer-readable to get is stored computer program, and it is loaded in the electronic computer system, just can carry out the method for operating at the described user of the foregoing description interface.

Fig. 9 is the synoptic diagram of the electronic installation with changeable user interface that illustrated according to the utility model one embodiment.See also Fig. 9, electronic installation 900 comprises display 910, touch control induction device 920, activation signal position detecting module 930, activation signal moving direction detection module 940 and processing module 950.

Wherein, touch control induction device 920 is used for detecting the activation signal that input tool (for example finger or pointer) is produced.In the present embodiment, touch control induction device 920 for example is touch pad or contact panel.When touch control induction device 920 was contact panel, touch control induction device 920 constituted touch-sensitive display in the lump with 910 of displays.And contact panel comprises corresponding display 910 viewing area and non-display area two partly.Wherein, viewing area and non-display area for example are on same plane or Different Plane, do not limit its scope at this.

Activation signal position detecting module 930 is connected to display 910 and touch control induction device 920 simultaneously, in order to judge whether activation signal is positioned at the specific region of touch control induction device 920, in the present embodiment, the specific region comprises the fringe region of viewing area, the central area outside the fringe region, or non-display area.If activation signal is positioned at the specific region, activation signal position detecting module 930 will judge whether the position of activation signal changes.

Activation signal moving direction detection module 940 is connected to activation signal position detecting module 930, and in order to detect the moving direction of activation signal.Processing module 950 is connected to activation signal position detecting module 930 and activation signal moving direction detection module 940 simultaneously, judged result according to activation signal position detecting module 930, when the position of activation signal changes, according to the detected moving direction of activation signal moving direction detection module 940, on display 910, switch the user interface.

The user can pass through the method for operating at the described user of the foregoing description interface, with input tools such as finger or pointer electronic installation 900 is operated and is switched the user interface according to this; Or on an existing user interface, switch to other user interface.Because method of operating and the foregoing description are identical, so do not repeat them here.

Figure 10 A is the stereographic map according to the hand-hold electronic device of a kind of block-free touch control operation of the utility model one embodiment, and Figure 10 B is the sectional view of the electronic installation of Figure 10 A.This electronic installation comprises housing 1001, touch-sensitive display 1002 and processor 1003.Housing 1001 has an outside surface 1004 and an accommodation space 1005, and accommodation space is in communication with the outside by the opening on the outside surface 1,004 1006.Touch-sensitive display 1002 comprises display 1007 and touch control induction device 1008.Display 1007 is arranged in the accommodation space 1005 of housing 1001.Touch control induction device 1008 is arranged in the opening 1006 of outside surface 1004 of housing 1001, in order to receive the activation signal that input tool produced.Touch control induction device 1008 has a touch-control sensing plane 1009, and touch-control sensing plane 1009 comprises viewing area 1010 and non-display area 1011.Opening 1006 edges and the touch-control sensing plane 1009 of housing 1001 join continuously, and the outside surface 1004 of housing 1001 do not protrude from touch-control sensing plane 1009, and the housing 1001 of indication does not comprise hot key or button on the hand-hold electronic device here.Processor 1003 is coupled to display 1007 and touch control induction device 1008, in order to judge whether activation signal is positioned at the specific region of touch-sensitive display 1002, if be positioned at the specific region, whether the position of then judging activation signal changes and detects the moving direction of activation signal, on touch-sensitive display 1002, open when changing in the position of activation signal according to this and demonstration user interface, or on touch-sensitive display 1002, switch the user interface according to moving direction.

What deserves to be mentioned is that because the outside surface 1004 of housing 1001 does not protrude from touch-control sensing plane 1009, surface of shell 1004 and touch-control sensing plane 1009 are equivalent to a continuously smooth surface, can allow the user have no the ground of obstruction move operation input tool.Moreover, because the non-display area 1011 that expose on touch-control sensing plane 1009 is not covered by housing 1001 as tradition, therefore in the design of hand-hold electronic device, except allowing input tool have no the ground of the obstruction move operation, can fill and part utilize this non-display area 1011, increase the users of allowing more and feel the application of convenient touch control operation.

As the embodiment of front, the user interface is opened, switches or closed to the position and the moving direction thereof of the activation signal that processor 1003 is produced in the time of can operating touch control induction device 1008 according to input tool.Seen the embodiment of front as for details such as operating process and functions, do not repeated them here.

In sum, electronic installation with changeable user interface and block-free touch control operation described in the utility model can be according to the position and the moving direction of the activation signal that input tool produced, open, switch or close the user interface, convenience in the time of not only can increasing the user and operate input tool, the user more is provided a kind of easy mode of operation, and then promotes the efficient of operating electronic devices.

Though the utility model discloses as above with preferred embodiment; right its is not in order to limit the utility model; anyly have the knack of this skill person; in not breaking away from spirit and scope of the present utility model; when doing a little change and retouching, therefore protection domain of the present utility model is worked as with being as the criterion that claim was defined.

Claims

1. the electronic installation with changeable user interface is characterized in that, comprising:

One display;

One touch control induction device is in order to detect an activation signal of an input tool;

One activation signal position detecting module, be coupled to this display and this touch control induction device, in order to judge whether this activation signal is positioned at a specific region of this touch control induction device,, judge then whether the position of this activation signal changes if be positioned at this specific region; And

One processing module is coupled to this activation signal position detecting module, when changing in order to the position at this activation signal, opens on this display and shows a user interface.

2. the electronic installation with changeable user interface as claimed in claim 1 is characterized in that this touch control induction device comprises a touch pad.

3. the electronic installation with changeable user interface as claimed in claim 1 is characterized in that this touch control induction device comprises a contact panel, and this touch control induction device and this display constitute a touch-sensitive display.

4. the electronic installation with changeable user interface as claimed in claim 3 is characterized in that, this contact panel is to should display and include a viewing area and a non-display area.

5. the electronic installation with changeable user interface as claimed in claim 4 is characterized in that, this viewing area and this non-display area of this contact panel are positioned at same plane or Different Plane.

6. the electronic installation with changeable user interface as claimed in claim 4 is characterized in that, this specific region comprises a central area of zone, an edge, this non-display area or this viewing area of this viewing area.

7. the electronic installation with changeable user interface as claimed in claim 1, it is characterized in that, this user interface comprises that a common user interface, has the user interface that at least one finger can be touched image, or one has the user interface that at least one finger can be touched image.

8. the electronic installation with changeable user interface as claimed in claim 1, it is characterized in that, this processing module is included in and opens this user interface on another user interface, to replace this another user interface, this another user interface comprises that one has at least one finger and can touch the user interface or of image and have the user interface that at least one finger can be touched image, and this user interface comprises a common user interface.

9. the electronic installation with changeable user interface as claimed in claim 1, it is characterized in that, this processing module is included in and opens this user interface on another user interface, to replace this another user interface, this user interface and this another user interface lay respectively on two planes at the dynamic user of 3D interface.

10. the electronic installation with changeable user interface as claimed in claim 9 is characterized in that, the dynamic user of this 3D interface is a polyhedron.

11. the electronic installation with changeable user interface as claimed in claim 9 is characterized in that, the dynamic user of this 3D interface is around an axially rotation.

12. the electronic installation with changeable user interface is characterized in that, comprising:

One display;

One activation signal position detecting module, be coupled to this display and this touch control induction device, in order to judge whether this activation signal is positioned at a specific region of this touch control induction device,, judge then whether the position of this activation signal changes if be positioned at this specific region;

One activation signal moving direction detection module is coupled to this activation signal position detecting module, in order to detect a moving direction of this activation signal; And

One processing module is coupled to this activation signal position detecting module and this activation signal moving direction detection module, when changing in order to the position at this activation signal, switches a user interface according to this moving direction on this display.

13. the electronic installation with changeable user interface as claimed in claim 12 is characterized in that this touch control induction device comprises a touch pad.

14. the electronic installation with changeable user interface as claimed in claim 12 is characterized in that this touch control induction device comprises a contact panel, this touch control induction device and this display constitute a touch-sensitive display.

15. the electronic installation with changeable user interface as claimed in claim 14 is characterized in that, this contact panel is to should display and include a viewing area and a non-display area.

16. the electronic installation with changeable user interface as claimed in claim 15 is characterized in that, this viewing area and this non-display area of this contact panel are positioned at same plane or Different Plane.

17. the electronic installation with changeable user interface as claimed in claim 15 is characterized in that, this specific region comprises a central area of zone, an edge, this non-display area or this viewing area of this viewing area.

18. the electronic installation with changeable user interface as claimed in claim 12, it is characterized in that this user interface comprises that a common user interface, has at least one finger and can touch the user interface or of image and have the user interface that at least one finger can be touched image.

19. the electronic installation with changeable user interface as claimed in claim 12, it is characterized in that, this processing module comprises and switches to this user interface from another user interface, this another user interface comprises that one has at least one finger and can touch the user interface or of image and have the user interface that at least one finger can be touched image, and this user interface comprises a common user interface.

20. the electronic installation with changeable user interface as claimed in claim 12, it is characterized in that, this processing module comprises from another user interface and switches to this user interface that this user interface and this another user interface lay respectively on two planes at the dynamic user of 3D interface.

21. the electronic installation with changeable user interface as claimed in claim 20 is characterized in that, the dynamic user of this 3D interface is a polyhedron.

22. the electronic installation with changeable user interface as claimed in claim 20 is characterized in that, the dynamic user of this 3D interface is around an axially rotation.

23. the electronic installation of a block-free touch control operation in order to open a user interface, is characterized in that, comprising:

One housing has an opening;

One touch-sensitive display is arranged in the opening of this housing, and in order to receive an activation signal of an input tool, this touch-sensitive display has a touch-control sensing plane, and the outside surface of this housing does not protrude from this touch-control sensing plane in fact; And

One processor, be coupled to this touch-sensitive display, in order to judge whether this activation signal is positioned at a specific region of this touch-sensitive display, if be positioned at this specific region, whether the position of then judging this activation signal changes, and when changing, on this touch-sensitive display, open and show this user interface in the position of this activation signal.

24. the electronic installation of block-free touch control operation as claimed in claim 23 is characterized in that, this touch-sensitive display includes a viewing area and a non-display area.

25. the electronic installation of block-free touch control operation as claimed in claim 24 is characterized in that, this specific region comprises a central area of zone, an edge, this non-display area or this viewing area of this viewing area.

26. the electronic installation of block-free touch control operation as claimed in claim 23, it is characterized in that, this user interface comprises that a common user interface, has the user interface that at least one finger can be touched image, or one has the user interface that at least one finger can be touched image.

27. the electronic installation of block-free touch control operation as claimed in claim 23, it is characterized in that, this processor is included in and opens this user interface on another user interface, to replace this another user interface, this another user interface comprises that one has at least one finger and can touch the user interface or of image and have the user interface that at least one finger can be touched image, and this user interface comprises a common user interface.

28. the electronic installation of block-free touch control operation as claimed in claim 23, it is characterized in that, this processor is included in and opens this user interface on another user interface, to replace this another user interface, this user interface and this another user interface lay respectively on two planes at the dynamic user of 3D interface.

29. the electronic installation of block-free touch control operation as claimed in claim 28 is characterized in that, the dynamic user of this 3D interface is a polyhedron.

30. the electronic installation of block-free touch control operation as claimed in claim 28 is characterized in that, the dynamic user of this 3D interface is around an axially rotation.

31. the electronic installation of a block-free touch control operation in order to switch a user interface, is characterized in that, comprising:

One housing has an opening;

One processor, be coupled to this touch-sensitive display, in order to judge whether this activation signal is positioned at a specific region of this touch-sensitive display, if be positioned at this specific region, whether the position of then judging this activation signal changes, and detect a moving direction of this activation signal, when changing in the position of this activation signal according to this, on this touch-sensitive display, switch this user interface according to this moving direction.

32. the electronic installation of block-free touch control operation as claimed in claim 31 is characterized in that, this touch-sensitive display includes a viewing area and a non-display area.

33. the electronic installation of block-free touch control operation as claimed in claim 32 is characterized in that, this specific region comprises a central area of zone, an edge, this non-display area or this viewing area of this viewing area.

34. the electronic installation of block-free touch control operation as claimed in claim 31, it is characterized in that this user interface comprises that a common user interface, has at least one finger and can touch the user interface or of image and have the user interface that at least one finger can be touched image.

35. the electronic installation of block-free touch control operation as claimed in claim 31, it is characterized in that, this processor comprises and switches to this user interface from another user interface, this another user interface comprises that one has at least one finger and can touch the user interface or of image and have the user interface that at least one finger can be touched image, and this user interface comprises a common user interface.

36. the electronic installation of block-free touch control operation as claimed in claim 31 is characterized in that, this user interface and this another user interface lay respectively on two planes at the dynamic user of 3D interface.

37. the electronic installation of block-free touch control operation as claimed in claim 36 is characterized in that, the dynamic user of this 3D interface is a polyhedron.

38. the electronic installation of block-free touch control operation as claimed in claim 36 is characterized in that, the dynamic user of this 3D interface is around an axially rotation.